Receiver architectures and methods of processing harmonic rich input signals employing harmonic suppression mixers are disclosed herein. The disclosed receivers, mixers, and methods enable a receiver to achieve the advantages of switching mixers while greatly reducing the mixer response to the undesired harmonics. A harmonic mixer can include a plurality of mixers coupled to an input signal. A plurality of phases of a local oscillator signal can be generated from a single local oscillator output. Each of the phases can be used to drive an input of one of the mixers. The mixer outputs can be combined to generate a frequency converted output that has harmonic rejection.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A receiver comprising: a filter having an input coupled to an RF input, and a filtered output; an oscillator operable to generate a control signal; and a harmonic reject down converter operable to receive the filtered output and the control signal, wherein the harmonic rejection down converter comprises: an LO generator operable to generate a plurality of phase shifted LO signals based on the control signal, wherein the control signal comprises a plurality of transitions during a period of each phase shifted LO signal, wherein each of the plurality of phase shifted LO signals is generated according to a respective transition of the plurality of transitions of the control signal; a plurality of mixers, each mixer in the plurality of mixers receiving the filtered output and being driven according to a phase shifted LO signal in the plurality of phase shifted LO signals; and a combiner operable to receive outputs from the plurality of mixers and provide a quadrature intermediate frequency (IF) output and an in-phase IF output.
2. The receiver of claim 1 , wherein the filter comprises a programmable bandwidth filter.
3. The receiver of claim 1 , wherein the RF input signal comprises a television signal.
4. The receiver of claim 1 , wherein the in-phase IF output is a first weighted sum of the outputs from the plurality of mixers and the quadrature IF output is a second weighted sum of the outputs from the plurality of mixers.
5. The receiver of claim 4 , wherein each weight in the first weighted sum and each weight in the second weighted sum is proportional to a sinusoidal function of a phase corresponding to a phase shifted LO signal.
6. The receiver of claim 1 , wherein a difference between a frequency of the RF input and a frequency of a phase shifted LO is greater than a channel bandwidth.
7. The receiver of claim 1 , wherein a frequency of the LO input is a multiple of a frequency of a phase shifted LO signal.
8. The receiver of claim 1 , wherein the receiver comprises a demodulator operable to demodulate a modulated signal comprising the quadrature IF output and the in-phase IF output.
9. A receiver comprising: a plurality of mixing circuits, each operable to receive an input signal and one of a plurality of local oscillator (LO) signals to generate a plurality of products; a control generator operable to generate a control signal; an LO generator operable to generate the plurality of LO signals based on the control signal, wherein the control signal comprises a plurality of transitions during a period of each LO signal, wherein each LO signal in the plurality of LO signals is generated according to a respective transition of the plurality of transitions of the control signal, and wherein each distinct transition in the plurality of transitions corresponds to the phase of each LO signal in the plurality of LO signals, each mixing circuit being operable to generate a product of the input signal and a LO signal from the plurality of LO signals, each LO signal being associated with a different phase; and a combiner operable to generate an output signal as a weighted sum of the plurality of products, each product in the plurality of products being weighted according to a sinusoidal function of the phase associated with the LO signal corresponding to the product.
10. The receiver of claim 9 , wherein the receiver comprises a demodulator operable to receive the output signal.
11. The receiver of claim 9 , wherein each of the plurality of mixing circuits comprises a switching mixer.
12. The receiver of claim 9 , wherein each of the plurality of mixing circuits comprises a CMOS switching mixer.
13. The receiver of claim 9 , wherein the input comprises a specified channel and wherein a difference between a frequency of the specified channel and a frequency of the LO signal is less than a bandwidth of the specified channel.
14. The receiver of claim 13 , wherein the output signal is substantially baseband.
15. The receiver of claim 9 , wherein the input is a common RF signal.
16. The receiver claim 9 , wherein the input comprises a specified channel and wherein a difference between a frequency of the specified channel and a frequency of the LO signal is greater than a bandwidth of the specified channel.
17. The receiver of claim 16 , wherein the output signal is a low IF output.
18. The receiver of claim 9 , wherein the plurality of mixing circuits consists of an odd number of mixers.
19. The receiver of claim 9 , wherein a number of distinct transitions in the plurality of transitions is equal to a number of mixing circuits in the plurality of mixing circuits.
20. The receiver claim 14 , wherein the difference between the frequency of the specified channel and the frequency of the LO signal is non-zero.
21. The receiver of claim 13 , wherein the output signal is baseband.
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August 7, 2012
February 12, 2013
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